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KIT SAM LAM BING YIM SECONARY SCHOOL
F.5 Chemistry
Teaching Schedule (2010-11)
Teacher: Yu Pui Fun
Textbook: Chemistry, A modern view 1 & 2 , Aristo
Week Contents
Chapter 25: Simple molecular substances with non-octet
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structures and shapes of simple molecules
25.1 Simple molecular substances with non-octet structures
25.2 Shapes of simple molecules
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Practical Work
Chapter 26: Bond polarity
26.1 Unequal sharing of electrons in covalent bonds
26.2 Polar and non-polar molecules
Chapter 27: Intermolecular forces
27.1 Introducing intermolecular forces
27.2 Van der Waal’s forces
27.3 Hydrogen bonding
27.4 Comparing the strengths of van der Waal’ forces, hydrogen
bonding and covalent bonding
Chapter 28: Structures and properties of molecular crystals
28.1 Molecular crystals
28.2 Structures and properties of ice
28.3 Structure and properties of fullerenes
Chapter 29: Chemical cells in daily life
29.1 Getting electricity from chemical cells
29.2 Classification of chemical cells
29.3 Primary cells and secondary cells
29.4 Basic terms related to dry cells
29.5 Characteristics of common primary and secondary cells
29.6 Choosing a chemical cell
29.7 Dry cells and environmental protection
Chapter 30: Simple chemical cells
Making
30.1 Simple chemical cells
simple chemical cells and
30.2 Simple chemical cells and the Electrochemical Series
measuring their voltage
30.3 Making chemical cells with metal / metal ion half-cells
Chapter 31: Redox reactions
31.1 Defining oxidation and reduction
31.2 Oxidation number
31.3 Defining redox reactions in terms of oxidation number
31.4 Common oxidizing agents and reducing agents
31.5 Balancing redox equations
Investigate redox reactions of
31.6 The Electrochemical Series and the relative strength of nitric acid of different
oxidizing agents / reducing agents
concentration with metals
31.7 Nitric acid and concentrated sulphuric acid as oxidizing
agents
31.8 Uses of the Electrochemical Series
Chapter 32: Redox reactions in chemical cells
32.1 Oxidation and reduction in a simple chemical cell
32.2 Simple chemical cells with inert electrodes
32.3 Chemistry of a zinc-carbon cell
32.4 Chemistry of a lead-acid accumulator
32.5 Fuels cells
Chapter 33: Electrolysis
33.1 Electrolysis is one type of redox reaction
33.2 Electrolysis of a molten salt
33.3 Predicting preferential discharge of ions
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33.4 Electrolysis of dilute sulphuric acid
33.5 Electrolysis of sodium chloride solution
Investigate the changes in
33.6 Electrolysis of copper(II) sulphate solution with copper electrolysis
electrodes
33.7 Products of electrolysis of some aqueous solutions and
molten substances – a summary
33.8 Factors affecting the rate of electrolysis
33.9 Industrial applications of electrolysis
33.10 Environmental impact of the electroplating industry
Chapter 34: Importance of redox reactions in modern ways of
living
34.1 Importance of redox reactions in our daily lives
34.2 Fuel cells and their applications
34.3 Rechargeable lithium cells and their applications
Chapter 35: Energy changes in chemical reactions
Determining the standard
35.1 Conservation of energy
enthalpy change of acid-base
35.2 Exothermic and endothermic reactions
neutralization
Chapter 36: Standard enthalpy change of combustion,
neutralization, solution and formation
36.1 Standard enthalpy change of combustion, neutralization,
solution and formation
36.2 Simple calorimetric methods
Chapter 37: Hess’s Law
37.1 Hess’s Law
37.2 Calculations involving enthalpy changes of reactions
17-18 Examination
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25
Chapter 38: Rate of chemical reaction
38.1 Introducing rate of reaction
38.2 Describing rate of reaction-average rate, instantaneous rate
and rate curve
38.3 Methods of following the progress of a chemical reaction
Chapter 39: Factors affecting rate of reaction
39.1 What factors affect rate of reaction?
39.2 A theory about reaction rate – the collision theory
39.3 Effect of concentration of reactants on rate of reaction
39.4 Effect of temperature on rate of reaction
Studying the progress of a
39.5 Effect of surface area of solid reactant on rate of reaction reaction by measuring the
39.6 Effect of catalyst on rate of reaction
volume of gas
39.7 Importance of catalyst in chemical industries and biological
systems
Chapter 40: Molar volume of gases at room temperature and
pressure (r.t.p.)
40.1 Molar volume
40.2 Calculations involving molar volume of gases
40.3 Miscellaneous calculations based on the mole concept
Chapter 41: Dynamic equilibrium
41.1 Irreversible and reversible reactions
41.2 Characteristics of dynamic equilibrium
Chapter 42: Equilibrium constant
42.1 Equilibrium Law and equilibrium constant
42.2 Equilibrium constants for homogeneous equilibrium and Determining the equilibrium
heterogeneous equilibrium
constant of esterification
42.3 Significance of the magnitude of equilibrium constant
between ethanol and ethanoic
42.4 Calculations involving equilibrium constant
acid
42.5 Determination of equilibrium constant from experiments
Chapter 43: The effect of charges in concentration and
temperature on chemical equilibria
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43.1 The effect of concentration change on chemical equilibria
43.2 The effect of temperature change on chemical equilibria
43.3 Using Le Châtelier’s Principle to predict the shift in
equilibrium position and its limitations
43.4 Applications of chemical equilibrium in industries
Chapter 44: Introduction to selected homologous series
44.1 Introducing organic chemistry
44.2 Homologous series, general formula and structural formula
44.3 Physical properties of alkanes, alkenes, alcohols and
carboxylic acids
44.4 Systematic naming and physical properties of other selected
homologous series
44.5 Carbon compounds with multiple functional groups
44.6 Trivial names of some common carbon compounds
Chapter 45: Isomerism
45.1 Structural isomerism
45.2 Stereoisomerism
Chapter 46: Typical reactions of various functional groups
46.1 Introducing organic reactions
46.2 Typical reactions of alkanes
46.3 Typical reactions of alkenes
46.4 Typical reactions of haloalkanes
46.5 Typical reactions of alcohols
46.6 Typical reactions of aldehydes and ketones
Preparing 2-chloro-246.7 Typical reactions of carboxylic acids
methylpropane from 2
46.8 Typical reactions of esters
methylpropan-2-ol
46.9 Typical reactions of amides
Chapter 47: Inter-conversions of carbon compounds
47.1 Inter-conversions between the functional groups
47.2 Considerations in planning a synthetic route
47.3 Laboratory preparation of simple carbon compounds
Chapter 48: Important organic substances
48.1 Glucose and fructose
48.2 Fats and oils
48.3 Proteins
48.4 Aspirin
Analysing commercial aspirin
48.5 Soaps and soapless detergents
tablets
48.6 Nylon
48.7 Polyesters
Chapter 49: Periodic variation in physical properties of the
elements Li to Ar
49.1 Nature of bonding and structures of elements of Group I
through Group 0 of the Periodic Table
49.2 Periodic variations of melting point and electrical
conductivity of elements
Chapter 50: Bonding stoichiometric composition and acid-base
properties of oxides of the elements Na to Cl
50.1 Bonding and stoichiometric composition of oxides of the
elements Na to Cl
50.2 Acid-base properties of oxides of the elements Na to Cl Investigate the behaviour of
oxides of the period 3 elements
Chapter 51: General properties of transition metals
51.1 What is a transition metal?
51.2 Coloured ions of transition metals
51.3 Variable oxidation states of transition metals
51.4 Catalytic properties of transition metals and their
compounds
51.5 The importance of transition metals and their compounds